Neutrino and EM asterometric detection of habitable exoplanets

Discovering habitable exoplanets and exomoons increases the possibility of detecting extraterrestrial life. A bilateral approach, using neutrino and electromagnetic (EM) radiation technologies, can be used to simultaneously characterize star types that generally have exoplanets and exomoons. This in...

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Veröffentlicht in:	Bioinformation 2023-03, Vol.19 (3), p.235-237
1. Verfasser:	Shapshak, Paul
Format:	Artikel
Sprache:	eng
Schlagworte:	Artificial intelligence Black holes Deep space Dwarf stars Electromagnetic radiation Extrasolar moons Extrasolar planets Extraterrestrial intelligence Extraterrestrial life Extraterrestrial radiation Neutrinos Planets Radiation Red giant stars Solar system Space exploration Stars Supernovae
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description	Discovering habitable exoplanets and exomoons increases the possibility of detecting extraterrestrial life. A bilateral approach, using neutrino and electromagnetic (EM) radiation technologies, can be used to simultaneously characterize star types that generally have exoplanets and exomoons. This includes cool main-sequence, sub-giant, and red-giant stars. Additionally, supernovae, black holes, and neutron and dwarf stars, will be included to widen the investigation, since they sometimes have companions, including stars and planets. Currently, space exploration is advancing beyond the solar system and proliferating into deep space. For this expansion, sophisticated artificial intelligence (AI) is required and being developed for self-coordination and interactive regulation of the various exploratory vehicles and telescopes. [1-6]
doi_str_mv	10.6026/97320630019235
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subjects	Artificial intelligence Black holes Deep space Dwarf stars Electromagnetic radiation Extrasolar moons Extrasolar planets Extraterrestrial intelligence Extraterrestrial life Extraterrestrial radiation Neutrinos Planets Radiation Red giant stars Solar system Space exploration Stars Supernovae
title	Neutrino and EM asterometric detection of habitable exoplanets
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